. Carnegie Institution of Washington publication. POTASSIUM IODIDE. 29 would be found. This is, however, a subject for future investigation. At 25° all trace of a minimum has disappeared. In order to see the connection existing between the conducting power of the solutions in the various solvents, the preceding table is given for the sake of comparison. ivlv Curve J, V =* 64 .II, v=r 128 " III, V => 256 " IV, V = Y,v«=. Strength of Methyl Alcohol FIG. 2. —POTASSIUM IODIDE AT 0°. Some of the values in table 9 are plotted in fig. 2. It is seen that the values of the molecular conduc
. Carnegie Institution of Washington publication. POTASSIUM IODIDE. 29 would be found. This is, however, a subject for future investigation. At 25° all trace of a minimum has disappeared. In order to see the connection existing between the conducting power of the solutions in the various solvents, the preceding table is given for the sake of comparison. ivlv Curve J, V =* 64 .II, v=r 128 " III, V => 256 " IV, V = Y,v«=. Strength of Methyl Alcohol FIG. 2. —POTASSIUM IODIDE AT 0°. Some of the values in table 9 are plotted in fig. 2. It is seen that the values of the molecular conductivity reach a minimum in a mixture of methyl alcohol and water containing 50 per cent methyl alcohol. It is also seen that an addition of approximately 10 per cent of alcohol lowers the conductivity of the aqueous solutions to that of an alcoholic Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Carnegie Institution of Washington. Washington, Carnegie Institution of Washington
Size: 1203px × 2078px
Photo credit: © Book Worm / Alamy / Afripics
License: Licensed
Model Released: No
Keywords: ., bookauthorcarnegieinstitutionof, bookcentury1900, bookdecade1900
